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B. Li and J. Wu, Traveling waves in integro-difference equations with a shifting habitat, Journal of Differential Equations, 268 (2020), 4059–4078.
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C. Hu, J. Shang, and B. Li, Spreading speeds for reaction-diffusion equations with a shifting habitat, Journal of Dynamics and Differential Equations, (2019), doi.org/10.1007/s10884-019-09796-5.
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B. Li, Multiple invasion speeds in a two-species integro-difference competition model, Journal of Mathematical Biology, 76 (2018), 1975-2009.
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G. Otto, S. Bewick, B. Li, and W. F. Fagan, How phenological variation affects species spreading speeds, Bulletin of Mathematical Biology, 80 (2018), 1476-1513.
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L. Sullivan, B. Li, T. Miller, M. Neubert, and A. Shaw, Density dependence in demography and dispersal generates fluctuating invasion speeds, Proceedings of the National Academy of Sciences of the USA, 114 (2017), 5053-5058.
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S. Bewick, G. Wang, H. Younes, B. Li, and W. F. Fagan, Invasion dynamics of competing species with stage-structure, Journal of Theoretical Biology, 435 (2017) 12–21.
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S. Bewick, P. Staniczenko, B. Li, D. Karig, and W. F. Fagan, Invasion speeds in microbial systems with toxin production and quorum sensing, Journal of Theoretical Biology, 420 (2017), 290-303.
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B. Li, S. Bewick, M. Barnard, and W. F. Fagan, Persistence and spreading speeds of integro-difference equations with an expanding or contracting habitat, Bulletin of Mathematical Biology, 78 (2016), 1337-1379.
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S. Bewick, B. Li, T. Duquette, and W. F. Fagan, How oviposition behavior determines persistence in small patches and changing climates, American Naturalist, 186 (2015), 237-251.
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C. Hu and B. Li, Spatial dynamics for lattice differential equations with a shifting habitat, Journal of Differential Equations, 259 (2015), 1967-1989.
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J. Shang, B. Li, and M. Barnard, Bifurcations in a discrete time model composed of Beverton-Holt function and Ricker function, Mathematical Biosciences, 263 (2015), 161-168.
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B. Li, W. F. Fagan, and K. I. Meyer, Success, failure, and spreading speeds for invasions on spatial gradients, Journal of Mathematical Biology, 70 (2015), 265-287.
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B. Li, S. Bewick, J. Shang, and W. F. Fagan, Persistence and spread of a species with a shifting habitat edge, SIAM Journal on Applied Mathematics, 74 (2014), 1397-1417.
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K. Meyer and B. Li, A spatial model of plants with an age-structured seed bank and juvenile stage, SIAM Journal on Applied Mathematics, 73 (2013), 1676-1702.
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B. Li, Traveling wave solutions in partially degenerate cooperative reaction-diffusion systems, Journal of Differential Equations, 252 (2012), 4842-4861.
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M. A. Lewis and B. Li, Spreading speed, traveling waves, and minimal domain size in impulsive reaction-diffusion models, Bulletin of Mathematical Biology, 74 (2012), 2383-2402.
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B. Li, Traveling wave solutions in a plant population model with a seed bank, Journal of Mathematical Biology, 65 (2012), 855-873.
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B. Li and L. Zhang, Traveling wave solutions in delayed cooperative systems, Nonlinearity, 24 (2011), 1759-1776.
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L. R. Gibson, B. Li, and S. K. Remold, Treating cofactors can reverse the expansion of a primary disease epidemic, BMC Infectious Diseases, 10 (2010): 248.
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B. Li, M. A. Lewis, and H. F. Weinberger, Existence of traveling waves for integral recursions with nonmonotone growth functions, Journal of Mathematical Biology, 58 (2009),323--338.
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C. Castillo-Chavez and B. Li, Spatial spread of sexually transmitted diseases within susceptible populations at demographic steady state, Mathematical Biosciences and Engineering, 5 (2008), 713--727.
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B. Li, Competition in a turbidostat for an inhibitory nutrient, Journal of Biological Dynamics, 2 (2008), 208-220.
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H. F. Weinberger, M. A. Lewis, and B. Li, Anomalous spreading speeds of cooperative recursion systems, Journal of Mathematical Biology, 55 (2007), 207-222.
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B. Li and H. Smith, Global dynamics of microbial competition for two resources with internal storage, Journal of Mathematical Biology, 55 (2007), 481- 515.
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B. Li and Y. Kuang, Heteroclinic bifurcation in the Michaelis-Menten- type ratio-dependent predator-prey system, SIAM Journal on Applied Mathematics, 67 (2007), 1453-1465.
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S. M. Baer, B. Li, and H. L. Smith, Multiple limit cycles in the standard model of three species competition for three essential resources, Journal of Mathematical Biology, 52 (2006), 745--760.
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B. Li, H. F. Weinberger, and M. A. Lewis, Spreading speeds as slowest wave speeds for cooperative systems, Mathematical Biosciences, 196 (2005), 82-98.
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B. Li and H. L. Smith, Periodic coexistence of four species competing for three essential resources, Mathematical Biosciences, 184 (2003), 115-135.
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H. F. Weinberger, M. A. Lewis, and B. Li, Analysis of linear conjecture for spread in cooperative models, Journal of Mathematical Biology, 45 (2002), 183-218.
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M. A. Lewis, B. Li, and H. F. Weinberger, Spreading speeds and the linear conjecture for two species competition model, Journal of Mathematical Biology, 45 (2002), 219-233.
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B. Li and H. L. Smith, How many species can two essential resources support? SIAM Journal on Applied Mathematics, 62 (2001), 336-366.
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B. Li, Periodic coexistence in the chemostat with three species competing for three essential resources, Mathematical Biosciences, 174 (2001), 27-40.
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B. Li, G. K. Wolkowicz, and Y. Kuang, Global asymptotic behavior of a chemostat model with two perfectly complementary resources and distributed delay, SIAM Journal on Applied Mathematics, 60 (2000), 2058--2086.
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B. Li and R. Siegel, Global analysis of a model pulsing drug delivery oscillator, Chaos, 10 (2000), No.3, 682-690.
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B. Li, Global asymptotic behavior of the chemostat: general response functions and differential death rates, SIAM Journal on Applied Mathematics, 59 (1999), 411-422.
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